Centralized management of mobile-assisted motor vehicle software upgrading and vehicle data analytics

ABSTRACT

In an example, a system is provided and the system includes a motor vehicle component client, a server located in the cloud, and an application to be installed on a personal portable device, such as mobile phone or other portable, mobile electronic device. In some examples, the system enables efficient vehicle software updates to the Engine Control Unit (ECU), the head unit, or the like, or combinations thereof, and/or enables efficient wireless transmission of vehicle data analytics associated with diagnostic information, location information, or the like, or combinations thereof.

PRIORITY

This application is a continuation of and claims priority benefit toU.S. patent application Ser. No. 15/154,179, filed May 13, 2016, whichis a non-provisional of and claims priority benefit to U.S. ProvisionalApplication No. 62/161,722 filed on May 14, 2015, all of which areherein incorporated by reference in their entirety.

COPYRIGHT NOTICE

© 2015-2016 Airbiquity Inc. A portion of the disclosure of this patentdocument contains material which is subject to copyright protection. Thecopyright owner has no objection to the facsimile reproduction by anyoneof the patent document or the patent disclosure, as it appears in thePatent and Trademark Office patent file or records, but otherwisereserves all copyright rights whatsoever. 37 CFR §1.71(d).

TECHNICAL FIELD

The disclosure pertains to electronic communications by and among aremote server (for example, in the cloud), a motor vehicle, and aportable, mobile device situated in the motor vehicle. Methods andapparatuses are disclosed for downloading selected software from theremote server, through the portable, mobile device to the motor vehiclesystems. The disclosure also enables efficient wireless transmission ofvehicle data analytics associated with diagnostic information, locationinformation, or the like, from the motor vehicle to the remote server,via the portable, mobile device.

BACKGROUND

A vehicle head unit may utilize a long range radio of a mobile device,such as a mobile phone carried in the vehicle, for the purposes ofcommunications between the vehicle and the remote server associated withcentralized management of motor vehicle software applications andservices. While this enables the centralized management of the motorvehicle software applications and services without requiring a longrange radio to be installed in the vehicle, today vehicle manufacturersmay still be reliant on having a long range radio installed in thevehicle for other reasons, such as the upgrading of firmware of vehiclecomponents (including but not limited to the Engine Control Unit (ECU)of the vehicle).

While it is possible to update firmware over a short range wirelessconnection or wire, the utilization of the short range wirelessconnection or wire may require delivery of the vehicle to a facility forthe update over the short range wireless connection or wire (manualprocess may need to be performed by a person to update the ECU firmwareat the facility). However, delivery of the vehicle to the facility isinconvenient, and for this and other reasons, today vehiclemanufacturers may be dependent on having a long range radio installed inthe vehicle to support their preferred firmware update procedures.

SUMMARY OF THE INVENTION

The following is a summary of the invention in order to provide a basicunderstanding of some aspects of the invention. This summary is notintended to identify key/critical elements of the invention or todelineate the scope of the invention. Its sole purpose is to presentsome concepts of the invention in a simplified form as a prelude to themore detailed description that is presented later.

In an example, a system is provided and the system includes a motorvehicle component client, a server located in the cloud, and anapplication to be installed on a personal portable device, such asmobile phone or other portable, mobile electronic device. In someexamples, the system enables efficient vehicle software updates to theEngine Control Unit (ECU), the head unit, or the like, or combinationsthereof, and/or enables efficient wireless transmission of vehicle dataanalytics associated with diagnostic information, location information,or the like, or combinations thereof.

In one example, a system includes a server in the cloud and a client ofa component installed in the motor vehicle. The server provides anapplication to be installed in a smartphone that may couple to the motorvehicle component by a wire or a short range wireless connection.

The client may collect and aggregate data from a vehicle bus, and handledata transmission via a wire or short range wireless connection to thesmartphone. Data may include vehicle data such as CAN (controller areanetwork) data, OBD (on board diagnostic) data including but not limitedto OBD II data, GPS (global positioning system) data, SQDF (service andquality data feed based on OBD data), or the like, or combinationsthereof. The client may apply a store-and-forward function totemporarily hold a vehicle data set until a connection to theapplication is established, and the vehicle data is fully uploaded. Theclient may prioritize high and low priority data set transmission to theapplication. The client may dynamically collect different sets ofvehicle data, change frequency of collection, and adjust otherconfigurations according to a configuration file or other command fromthe server. The server may communicate with the client to manage aspecific data set including a command to collect the specific data set,set a frequency of collection, and adjust other configurations, bypushing a configuration file or other command to the application of thesmart phone.

In one example, the server includes a software-over-the-air module tocommunicate with a software-over-the-air module of the client. Thesoftware-over-the-air module of the server may cause a cellularconnection to be established to or from the smartphone to download asoftware update to the application, based on urgency and cost ofconnection, or may wait until a WiFi connection is available. The clientmay collect a firmware image from the smartphone and forward to thesoftware-over-the-air module of the client, which may manage onboardfirmware upgrade of the head unit, the ECU, or the like, or the like, orcombinations thereof.

The application may be downloaded by a user of the smartphone from an“app” store. The application may utilize a store-and-forward function totemporarily hold data received from one of the client or the server, tobe forwarded to the other of the server or the client. The applicationmay hold the data until connection to the server or the client isestablished, and the data is fully transmitted. The application mayorder forwarding based on priority if more than one forward is stored.The data held by the application may be a software upgrade for the motorvehicle or a data set collected by the motor vehicle.

Additional aspects and advantages of this invention will be apparentfrom the following detailed description of preferred embodiments, whichproceeds with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 illustrates a system to update software of vehicle componentsand/or to obtain information generated by the motor vehicle.

FIG. 2 is a simplified flow chart illustrating some of the principaloperations that may be performed by the processing device of the networkdevice of FIG. 1.

FIG. 3 is a simplified flow chart illustrating some of the principaloperations that may be performed by the application of the portable,mobile electronic device of FIG. 1.

FIG. 4 is a simplified flow chart illustrating some of the principaloperations that may be performed by the processing device of the motorvehicle component of FIG. 1.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

FIG. 1 illustrates a system to update software of vehicle componentsand/or to obtain information generated by the motor vehicle.

The system 100 includes a network device 12 (such as a server) includinga processing device 22 having a software over-the-air module tocommunicate with a remote application 20 to manage over the air upgradeof motor vehicle component software, e.g. firmware such as ECU firmware,middleware, operating system, application software, or the like, orcombinations thereof. An application 20, e.g. an application withsoftware-over-the-air download function, is installed on a personalportable device, such as a smartphone 10 or other portable, mobileelectronic device preferably in or near of the motor vehicle. Theapplication 20 is configured to temporarily hold software downloadedfrom the network device 12 until a connection to a vehicle isestablished over a short range connection, e.g. a short range wirelessconnection such as Bluetooth or a wired connection such as USB, with thevehicle. The application 20 may download the software to a processingdevice 21 of the vehicle, which may be installed on a vehicle component11 that is installed in the motor vehicle, such as a vehicle head unit.In some examples, the vehicle component 11 may be configured to performany of the vehicle head unit functions described in more detail in U.S.Patent Publication No. 2014/0179274, which is herein incorporated byreference in its entirety, and the network device 12 may perform any ofthe backend functions described in more detail in U.S. PatentPublication No. 2014/0179274.

In an example, the processing device 22 may be configured to push asoftware update to the smartphone 10 via a first cellular connection ora second connection different from the first connection, such as a WiFiconnection. In an example, the processing device 22 may be configured todetermine whether a particular vehicle component software update is tobe pushed via the first cellular connection if the second differentconnection is not currently available (for instance if the smartphone 11is not entirely reachable by WiFi or reachable at less than a thresholdbandwidth). In an example, the determination is based on factorsincluding but not limited to urgency of the particular vehicle componentsoftware update, costs associated with the cellular connection, usersettings received by or accessible to the network device 12 and/orsmartphone 10, and the like, or combinations thereof. In other examples,the processing device 22 may notify over any connection about a pendingupdate and let application 20 determine based on a configuration fileprovided by the processing device 22 which wireless network connectionis appropriate to pull the software update.

If the particular vehicle component software update is to be pushed viathe first connection, the processing device 22 and/or the application 20may establish a cellular connection to or from the smartphone 10responsive to the determination. If the particular vehicle componentsoftware update is not to be pushed via the first connection, theprocessing device 22 may queue pushing of the particular vehiclecomponent software update to take place when a second connection to thesmartphone 10 becomes available, e.g. wait until a WiFi connectionbetween the smartphone 10 and a wireless network access point isestablished.

In an example, the processing device 22 may be configured to determinewhen the smartphone 10 is reachable independently of the cellular radio.In an example, the processing device 22 may be configured to determinewhen the smartphone 10 connects to a wireless network access point. Inan example, the application 20 of the smartphone 10 may be configured tosend a signal to the network device 12 responsive to establishing aconnection to a wireless network access point. The processing device 22may determine when the smartphone 10 connects to a wireless networkaccess point using the signal from the smartphone 10.

The application 20 may receive the particular vehicle component softwareupdate. The application 20 may hold the downloaded particular vehiclecomponent software update until a short range connection, e.g. a shortrange wireless connection such as Bluetooth or a wired connection suchas USB, is established between the smartphone 10 and the motor vehicle,e.g. between smartphone 10 and vehicle component 11. The application 20may transmit a software image, e.g. a firmware image, that includes thedownloaded particular vehicle component software update and possiblyother updates and information to a storage function module of thevehicle component 11.

The processing device 21 may be configured to manage onboard softwareupgrades for the vehicle. It should be appreciated that the processingdevice 21 may manage software updates for the vehicle component 11 andother vehicle components (also referred to herein as “remote vehiclecomponents” and which may be coupled via the vehicle bus of the motorvehicle to the vehicle component 11, which may be referred to as a“local vehicle component”). The processing device 21 may retrieve thesoftware image from a storage function module, and implement thesoftware upgrade of the local vehicle component software (e.g., headunit software) or remote vehicle component software. In other examples,this functionality of the processing device 21 may reside in theapplication 20 to manage software updates for the local vehiclecomponent and other vehicle components.

In some example, the system 100 may also be configured for a wirelesstransmission of vehicle data analytics functionality, in addition to thefunctionality of the vehicle components. In such examples, a vehicleanalytics module of the processing device 21 may be configured toaggregate data collected from the vehicle bus until a short rangeconnection is established to smartphone 10. The frequency of collectionmay be controlled by predefined settings and/or information from thevehicle data analytics server module of the processing device 22. Theprocessing device 21 may push the aggregated data to an application 20with vehicle data analytics of the smartphone 10.

In an example, the aggregated data may include more than one set ofdata. The processing device 21 may be configured to select an order foruploading the sets of data. The order may be determined based onpredefined priority levels, dynamic priority levels signaled by thevehicle data analytics server module of the processing device 22, usersettings received by the vehicle data analytics server module, or thelike, or combinations thereof.

The application 20 of the smartphone 10 may be configured to hold theaggregated data pushed from the vehicle component 11 if a firstconnection is not available, e.g. if the smartphone 10 is not connectedto a wireless network access point. The application 20 may be configuredto determine whether to push a portion of the aggregated data at adifferent time and/or over a different connection than another portionof the aggregated data. For instance, the application 20 may beconfigured to identify a first portion of the data. The first portion ofthe data may be identified based on, e.g. based in part on, usersettings accessible to the network device 12. The first portion of thedata may include high priority data and/or low volume data.

In response to identifying the first portion of the data, theapplication 20 may establish a cellular connection to communicate withthe network device 12. The application 20 may transmit the identifiedportion of the data to the network device 12 using the cellularconnection. Later, at a different time, responsive to detecting thesmartphone 10 connecting to a device independently of the cellularconnection, e.g. connecting to a wireless network access point, theapplication 20 may push another portion of the aggregated data, e.g. theremainder, over a different connection, e.g. a WiFi connection. Thevehicle data analytics server module of the processing device 22 may beconfigured to integrate the received portion(s) of the aggregated datato a database associated with one or more services.

In an example, the application 20 of the mobile phone may be configuredto transmit first resolution data, e.g. low resolution, of a portion ofthe aggregated data and second different resolution data, e.g. highresolution, of the same event of the aggregated data to the networkdevice 12 at different times and/or over different connections. Forinstance, the processing device 22 or the application 20 may beconfigured to generate a first data package including a first portion ofthe aggregated data and a second data package including a second portionof the aggregated data. The first data package may be smaller in bitsthan the second data package. In an example, the first data package maybe associated with a dashboard level details for displaying a tripreport, and the second package may be associated with other details fora detailed trip report. In an example, the second data package mayinclude information needed to plot the entire journey on a map togetherwith the incidents/events that occurred through the trip, while thefirst data package may include dashboard level details such as triplength.

If a WiFi connection is not available when the aggregated data isreceived by the smartphone 10, the application 20 may be configured totransmit the first data package over a cellular connection. Theapplication 20 may be configured to hold the second data package until asecond different connection, e.g. a WiFi connection, becomes available.

In some examples, the processing 22 may download configuration files tothe vehicle and the smartphone 10. The configuration file downloaded tothe vehicle may include a first mapping, and the configuration filedownloaded to the smartphone 10 may include a second mapping that isdifferent than the first mapping. In one example, the first mappinginclude a priority mapping indicating different priority for differentdata sets (a first data set of location based data collected as thevehicle is moving may have a lower priority than another data set, suchas a data set indicating a status of vehicle components, e.g., a dataset including a diagnostic code). The second mapping may be based onuser preferences of the user of the smartphone 10. The second mappingmay indicate cellular connection for a portion of priorities, e.g., fora subset of the priorities (such as high priority). The second mappingmay be utilized for software updates downloaded from the network device12 to the smartphone 10, and for data sets collected by the vehicle tobe uploaded to the network device 12.

The processing device 21 may add information from the first mapping(such as a header to indicate the priority), and the processing device20 may compare information from the header of a received data set todetermine a data channel to be used for the data set (a cellularconnection may be established for a data set having a header indicatinghigh priority). The second mapping may indicate different preferencesfor different regions, e.g., high priority only for a first region, orhigh priority except low priority for another region. For softwareupdates, the processing 22 may determine whether to download a softwareupdate to the vehicle “passively”, e.g., queue to download the next timea connection is established between the relevant devices, or not. Insome examples, the processing device 22 may cause a software update tobe download to the smartphone 10 non-passively, e.g., may cause theapplication 20 to display a user prompt related to downloading thesoftware update (to instruct a user to connect the smartphone 10 to thevehicle, or the like).

In some examples the processing device 21 may be configured toprioritize high and low priority data set transmission to theapplication 20. An example of low priority data is location based datacollected as the vehicle is moving, and an example of high priority datais information about a status of vehicle components (e.g., an engineoverheating). The processing device 21 may perform collection accordingto a command from the processing device 22. For example, the processingdevice 21 may collect a specified vehicle data set at a frequencyspecified by the command.

Some example systems 100 may utilize segmentation. The processing device21 or 22 may segment the software package or data set into a pluralityof segments, and the application 20 may be configured to store apredetermined portion of the software package (e.g., all segments or asubset of the segments) until a predetermined segment (e.g., the lastsegment) is transmitted to the motor vehicle. The processing device 21or 22 may determine a physical or a current logical capacity of a memoryof the smartphone 10 and/or the vehicle component 11, and may segmentaccording to the determined capacity.

In examples utilizing segmentation, a portion of software update or adata set may be transmitted using a first connection. As a vehiclemoves, or for some other reason, the first connection may be terminated,and the system may immediately establish a different connection (e.g., acellular connection) for remaining one(s) of the segments or wait foranother connection to be established, depending on the indicatedpriority of the software update or the data set.

In examples utilizing segmentation, a subset of the segments may bedownloaded to the smartphone 10 to be held until a connection isestablished between the smartphone 10 and the vehicle or the networkdevice 12. The processing device 21 or 22 may determine a physical or acurrent logical capacity of a memory of the smartphone 10 and/or thevehicle component 11, and may determine the subset according to thedetermined capacity and the segment size. Once the connection isestablished and a portion of the initially download segments aretransferred from the smartphone 10, a next subset of the segments may bedownloaded to the smartphone 10.

FIG. 2 is a simplified flow chart illustrating some of the principaloperations that may be performed by the processing device of the networkdevice of FIG. 1.

In block 201, the processing device 22 may identify a software updatefor a motor vehicle. In block 202, the processing device 22 may checkwhether a portable, mobile electronic device is accessible via a firstinterface of the portable, mobile electronic device. The first interfacemay include a non-cellular interface such as a network interface, e.g.,a Wireless Local Area Network (WLAN) interface.

If the portable, mobile electronic device is accessible via the firstinterface, then in block 204 the processing device 22 may transmit thesoftware update for ingress over the first interface. This may enablethe portable, mobile electronic device to transmit the software updateto the motor vehicle over a wire or a short range wireless interface,such as Bluetooth®.

If the portable, mobile electronic device is not accessible via thefirst interface, then in block 205 the processing device 22 maydetermine whether the software update corresponds to a criterion (e.g.,one or more criteria). In an example, the criterion includes whether thesoftware update is for a component of a predetermined group ofcomponents of the motor vehicle. The predetermined group may include anEngine Control Unit (ECU) of the motor vehicle, in one example. In anexample, the criterion (e.g., one or more criteria) may include apreference indicated by the owner/operator of the portable, mobileelectronic device.

If the software update corresponds to the criterion, then in block 207the processing device 22 may establish a cellular connection to theportable, mobile electronic device. In block 208, the processing device208 may transmit the software update over the established cellularconnection for ingress over a second different interface of theportable, mobile electronic device for immediate or deferred egress overthe first interface of the portable, mobile electronic device. (egressmay occur, say, when the driver of the motor vehicle powers up the motorvehicle and a short range wireless connection is established between themotor vehicle and a smartphone carried by the driver). The firstinterface of the portable, mobile electronic device may include a wireor a short range wireless connection.

If the software update does not correspond to the criterion, then inblock 209 the processing device 22 does not establish the cellularconnection. In one example, the processing device 22 may add thesoftware update to a transmission queue for transmission independentlyof the cellular connection.

The processing device 22 may subsequently monitor the queue to determinewhether any software update of the queue corresponds to the criterion,and transmit the software update from the queue responsive to receivinga signal output from the portable, mobile electronic device over thefirst interface (the application 20 may be configured to transmit asignal to the server responsive to accessing a wireless network accesspoint over the first interface).

FIG. 3 is a simplified flow chart illustrating some of the principaloperations that may be performed by the application of the portable,mobile electronic device of FIG. 1.

In block 301, the application 20 may transmit to a motor vehicle acommunication including a first configuration file of a plurality ofconfiguration files received from a remote server. The firstconfiguration file may map motor vehicle codes (e.g., diagnostic codes,or the like) to priority. The second configuration file may map priorityto connection information. In an example, the connection information isbased on, e.g., based at least in part on, a preference indicated by theowner/operator of the portable, mobile electronic device. In an example,the connection information may be service region based, e.g., maydelineate different connections for the same priority for differentcellular service regions. For instance, for a given priority, theconnection information may indicate no cellular connection for oneservice region, but conversely indicate cellular connection for anotherservice region.

In block 302, the application 20 may, responsive to receiving from themotor vehicle a communication including a portion of a data set ofinformation output from a motor vehicle, parse the metadata of thecommunication for an indicated priority. In block 303, the application20 may compare the indicated priority to the first mapping. In block304, the application 20 may ascertain whether to establish a connectionfor uploading data corresponding to the received communication over asecond different interface of the portable, mobile electronic devicebased on a result of the comparison of the indicated priority to thesecond configuration file.

FIG. 4 is a simplified flow chart illustrating some of the principaloperations that may be performed by the processing device of the motorvehicle component of FIG. 1.

In block 401, the processing device 21 may compare an indicator for adata set output by a motor vehicle component, e.g., a head unit, an ECU,etc., to one of a plurality of configuration files. In block 402, theprocessing device 21 may generate metadata to indicate a priority forthe data set according to a result of the comparison to the one of theconfiguration files. In block 403, the processing device 21 may transmita communication including the metadata and a portion of the data set(e.g., an entire data set portion, in some examples) to the portable,mobile electronic device responsive to generation of the metadata toenable the portable, mobile electronic device to determine whether toestablish a cellular connection for uploading data corresponding to thedata set to a remote server using the other one of the configurationfiles.

EXAMPLES

One example is a system including a server configured to: identify asoftware update for a vehicle; check whether a smartphone is accessiblevia a network interface of the smartphone; in response to the smartphonenot being accessible via the network interface of the smartphone,determine whether the software update matches a criterion, wherein thecriterion is whether the software update is for a predeterminedcomponent of the vehicle, wherein the predetermined component comprisesan Engine Control Unit (ECU) of the vehicle; in response to determiningthat the software update is for the predetermined component of thevehicle, establish a cellular connection to the smartphone; and transmitthe software update for the predetermined component of the vehicle.

In one example, the server is further configured to: in response todetermining that the software update is not for the predeterminedcomponent of the vehicle, queue the software update for transmission tothe smartphone independently of the cellular connection.

In one example, the smartphone is configured to transmit a signal to theserver responsive to accessing a wireless network access point.

Another example is a system including a server configured to: identify asoftware update for a vehicle; check whether a portable, mobileelectronic device is accessible via a network interface of the portable,mobile electronic device; in response to the portable, mobile electronicdevice not being accessible via the network interface of the portable,mobile electronic device, determine whether the software update matchesa criterion; in response to determining that the software update matchesthe criterion, establish a cellular connection to the portable, mobileelectronic device; and transmit the software update for thepredetermined component of the vehicle.

In one example, the server is further configured to: in response todetermining that the software update does not match the criterion, addthe software update to a transmission queue for transmissionindependently of the cellular connection.

In one example, the server is further configured to: monitor the queueto determine whether any software update of the queue matches thecriterion; and transmit the software update from the queue via the sameor another cellular connection responsive to a result of the monitoring.

In one example, the portable, mobile electronic device is configured totransmit a signal to the server responsive to accessing a wirelessnetwork access point.

In one example, the system includes a vehicle head unit, wherein: thevehicle head unit is configured to aggregate data collected from avehicle bus until a short range connection is established between thevehicle head unit and the portable, mobile electronic device; and thevehicle head unit is configured to push the aggregated data to theportable, mobile electronic device over the short range connection.

In one example, the vehicle head unit is configured to select an orderfor transmitting a plurality of sets of data of the aggregated data.

In one example, the portable, mobile electronic device is configured toidentify a first portion of the aggregated data if no wireless networkaccess points are accessible via the network interface of the portable,mobile electronic device; the portable, mobile electronic device isconfigured to establish a cellular connection and transmit the firstportion of the aggregated data over the cellular connection; and theportable, mobile electronic device is configured to transmit a seconddifferent portion of the aggregated data to the server independently ofa cellular radio of the portable, mobile electronic device.

In one example, at least one of the vehicle head unit and the portable,mobile electronic device is configured to: generate a first data packageincluding first information related to an event associated with theaggregated data; and generate a second data package including seconddifferent information related to the same event.

In one example, the first data package includes less bits than thesecond data package.

In one example, the portable, mobile electronic device is configured totransmit the first data package to the server over said the cellularconnection at a first time and the second data package to the server ata second time that is later than the first time.

In one example, the server is configured to generate a first trip reportresponsive to receiving the first data package and a second trip reportresponsive to receiving the second data package.

In one example, generating the first trip report comprises generating adashboard level display of the event.

Most of the equipment discussed above comprises hardware and associatedsoftware. For example, the typical navigation device is likely toinclude one or more processors and software executable on thoseprocessors to carry out the operations described. We use the termsoftware herein in its commonly understood sense to refer to programs orroutines (subroutines, objects, plug-ins, etc.), as well as data, usableby a machine or processor. As is well known, computer programs generallycomprise instructions that are stored in machine-readable orcomputer-readable storage media. Some embodiments of the presentinvention may include executable programs or instructions that arestored in machine-readable or computer-readable storage media, such as adigital memory. We do not imply that a “computer” in the conventionalsense is required in any particular embodiment. For example, variousprocessors, embedded or otherwise, may be used in equipment such as thecomponents described herein.

Memory for storing software again is well known. In some embodiments,memory associated with a given processor may be stored in the samephysical device as the processor (“on-board” memory); for example, RAMor FLASH memory disposed within an integrated circuit microprocessor orthe like. In other examples, the memory comprises an independent device,such as an external disk drive, storage array, or portable FLASH keyfob. In such cases, the memory becomes “associated” with the digitalprocessor when the two are operatively coupled together, or incommunication with each other, for example by an I/O port, networkconnection, etc. such that the processor can read a file stored on thememory. Associated memory may be “read only” by design (ROM) or byvirtue of permission settings, or not. Other examples include but arenot limited to WORM, EPROM, EEPROM, FLASH, etc. Those technologies oftenare implemented in solid state semiconductor devices. Other memories maycomprise moving parts, such as a conventional rotating disk drive. Allsuch memories are “machine readable” or “computer-readable” and may beused to store executable instructions for implementing the functionsdescribed herein.

A “software product” refers to a memory device in which a series ofexecutable instructions are stored in a machine-readable form so that asuitable machine or processor, with appropriate access to the softwareproduct, can execute the instructions to carry out a process implementedby the instructions. Software products are sometimes used to distributesoftware. Any type of machine-readable memory, including withoutlimitation those summarized above, may be used to make a softwareproduct. That said, it is also known that software can be distributedvia electronic transmission (“download”), in which case there typicallywill be a corresponding software product at the transmitting end of thetransmission, or the receiving end, or both.

Having described and illustrated the principles of the invention in apreferred embodiment thereof, it should be apparent that the inventionmay be modified in arrangement and detail without departing from suchprinciples. We claim all modifications and variations coming within thespirit and scope of the following claims.

1. A portable, mobile electronic device including a memory havinginstructions stored thereon that, in response to execution by aprocessing device of the portable, mobile electronic device, cause theprocessing device of the portable, mobile electronic device to performoperations comprising: downloading, from a remote server, aconfiguration file of a pair of configuration files, wherein a firstconfiguration file of the pair includes a first mapping indicatingdifferent priorities for different types of data sets generated by amotor vehicle, and a second configuration file of the pair maps priorityto connection information, wherein the received configuration filecomprises the second configuration file of the pair; receiving from themotor vehicle a communication including content of a data set ofinformation output from the motor vehicle, the communication includingmetadata indicating one of the priorities of the first configurationfile; and determining a data channel for uploading, to the remoteserver, the content using the connection information of the secondconfiguration file, and based on the indicated priority.
 2. The systemof claim 1, wherein the operations further comprise checking whether theremote server is reachable over a first interface of the portable,mobile electronic device, and uploading a portion of the content to theremote server in the case that the remote server is reachable over thefirst interface, and in the case that the remote server is not reachableover the first interface, uploading the portion of the content over asecond interface of the portable, mobile electronic device, conditionedon a value of the connection information of the second configurationfile.
 3. The system of claim 2, wherein the operations further compriseuploading a subset of said content to the remote server on one of thefirst and second interfaces, and uploading a second subset of saidcontent on the other one of the of the first and second interfaces. 4.The system of claim 3, wherein the subset of said content includes atleast one of vehicle speed information, engine speed information,odometer information, or ignition status information.
 5. The system ofclaim 3, wherein a different subset of said content includes at leastone of location information or instantaneous fuel economy information.6. The system of claim 2, wherein the operations further comprisecaching the portion of the content if the remote server is not reachableover the first interface.
 7. The system of claim 1, wherein the firstinterface is associated with at least one of a wired or short rangewireless connection.
 8. The system of claim 1, wherein the firstinterface includes a WLAN (wireless local area network) interface. 9.The system of claim 1, wherein the operations further comprise:segmenting the content into a plurality of segments; beginning upload ofthe plurality of segments to the remote server over a first connection;if communication with the remote server over the first connection isdisrupted prior to uploading all of the plurality of segments, selectingan action, based on a comparison of the priority indicated by themetadata to the second configuration file, the action comprising atleast one of caching a remaining segment of the plurality of segments,caching the plurality of segments, or uploading said remaining segmentto the remote server over a second different connection; and executingthe selected action.
 10. The system of claim 1, further comprising: amotor vehicle component installed in the motor vehicle, the motorvehicle component including a memory having instructions stored thereonthat, in response to execution by a processing device of the motorvehicle component, cause the processing device of the motor vehiclecomponent to perform operations comprising: collecting a vehicle dataset from a vehicle bus installed in the motor vehicle; associating thecollected data set to a motor vehicle code; comparing the motor vehiclecode for the data set to the first configuration file to identify aresult and generating the metadata that indicates the priorityresponsive to the result; and transmitting the communication to theportable, mobile electronic device, the communication including saidcontent and said metadata.
 11. A system, comprising: a server configuredto: identify a software update for a motor vehicle; check whether aportable, mobile electronic device is accessible via a first interfaceof the portable, mobile electronic device; in response to the portable,mobile electronic device not accessible via the first interface of theportable, mobile electronic device for the check, determine whether thesoftware update corresponds to a criterion, wherein the criterionincludes whether the software update is for a component of apredetermined group of components of the motor vehicle, wherein thepredetermined group includes an Engine Control Unit (ECU) of the motorvehicle; in response to determining that the software update correspondsto the criterion, establish a cellular connection to a second interfaceof the portable, mobile electronic device; and transmit the softwareupdate over the established cellular connection.
 12. The system of claim11, wherein the server is further configured to: in response todetermining that the software update does not correspond to thecriterion, add the software update to a transmission queue fortransmission without utilizing a cellular connection.
 13. The system ofclaim 12, wherein the server is further configured to: monitor thetransmission queue to determine whether any software update of thetransmission queue corresponds to the criterion; and transmit thesoftware update from the transmission queue responsive to receiving asignal output from the portable, mobile electronic device over the firstinterface.
 14. The system of claim 12, wherein the portable, mobileelectronic device is configured to transmit a signal to the serverresponsive to accessing a wireless network access point.
 15. The systemof claim 11, further comprising a vehicle head unit, wherein: thevehicle head unit is configured to aggregate data collected from avehicle bus until a connection is established between the vehicle headunit and the portable, mobile electronic device; and the vehicle headunit is configured to push the aggregated data to the portable, mobileelectronic device responsive to the establishment of said connectionbetween the vehicle head unit and the portable, mobile electronicdevice.
 16. The system of claim 15, wherein the vehicle head unit isconfigured to select an order for transmitting a plurality of sets ofdata of the aggregated data based on priority.
 17. The system of claim15, wherein: the portable, mobile electronic device is configured toidentify a first portion of the aggregated data if no wireless networkaccess points are accessible via the network interface of the portable,mobile electronic device; the portable, mobile electronic device isconfigured to establish a cellular connection and transmit the firstportion of the aggregated data over the cellular connection; and theportable, mobile electronic device is configured to transmit a seconddifferent portion of the aggregated data to the server independently ofa cellular radio of the portable, mobile electronic device.
 18. Thesystem of claim 17, wherein at least one of the vehicle head unit andthe portable, mobile electronic device is configured to: generate afirst data package including first information related to an eventassociated with the aggregated data; and generate a second data packageincluding second different information related to the same event. 19.The system of claim 18, wherein the first data package includes fewerbits than the second data package.
 20. The system of claim 19, whereinthe portable, mobile electronic device is configured to transmit thefirst data package to the server over said the cellular connection at afirst time and the second data package to the server at a second timethat is later than the first time.